Modular microfluidic platform for mimicking multi-organ system interactions. This project aims to develop a novel, modular microfluidic platform that overcomes current limitations of integrated systems in synchronising multi-tissue culture, imaging and operational complexity. Understanding multi-organ systemic crosstalk in human health and diseases demands dynamic culture systems that can mimic such interactions. This project will deliver a first-in-class platform technology and establish intern ....Modular microfluidic platform for mimicking multi-organ system interactions. This project aims to develop a novel, modular microfluidic platform that overcomes current limitations of integrated systems in synchronising multi-tissue culture, imaging and operational complexity. Understanding multi-organ systemic crosstalk in human health and diseases demands dynamic culture systems that can mimic such interactions. This project will deliver a first-in-class platform technology and establish international and disciplinary collaborations to develop different tissue and engineering modules relevant to applications in systemic nanotoxicology, drug bioactivation and chronic diseases. This will provide the cornerstone technology to develop a new generation of disease models and therapeutics targeting interaction dysfunctions.Read moreRead less
A silicon-compatible light source on a silicon-on-insulator platform. Silicon is emerging as an important photonic material owing to the cheap processing methods developed for electronics. This project aims to capture key technology for integrating photonic components onto silicon. It can bring social and commercial benefits to Australia such as high-level research as well as opportunities for commercialisation.
Hetero-epitaxial silicon carbide: enabling wide-band-gap semiconductors on silicon for greener technologies. In the next decade wide band gap materials will unlock vast potential for a capillary outreach of smart heterogeneous devices, improving energy efficiency and lessening our carbon footprint. This project will aim at major breakthroughs, enabling this pressing technological demand, and putting Australia at the leading edge of this revolution.